Polymer Combustion as a Basis for Hybrid Propulsion: A Comprehensive Review and New Numerical Approaches

Polymer Combustion as a Basis for Hybrid Propulsion: A Comprehensive Review and New Numerical Approaches

Hybrid Propulsion is an attractive alternative to conventional liquid and solid rocket motors. This is an active area of research and technological developments. Potential wide application of Hybrid Engines opens the possibility for safer and more flexible space vehicle launching and manoeuvring. Th...

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Main Authors: Vasily Novozhilov, Hui Wang, Jun Liu, Keiichi Ishiko, Toru Shimada, Paul Joseph
Format: Article
Language:English
Published: MDPI AG 2011-10-01
Series:Energies
Subjects:
hybrid propulsion
polymeric fuels
combustion
computational fluid dynamics
Online Access:http://www.mdpi.com/1996-1073/4/10/1779/
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spelling doaj-0a0d7cd60d944c54ae1eb3911e4d02ac2020-11-24T22:47:08ZengMDPI AGEnergies1996-10732011-10-014101779183910.3390/en4101779Polymer Combustion as a Basis for Hybrid Propulsion: A Comprehensive Review and New Numerical ApproachesVasily NovozhilovHui WangJun LiuKeiichi IshikoToru ShimadaPaul JosephHybrid Propulsion is an attractive alternative to conventional liquid and solid rocket motors. This is an active area of research and technological developments. Potential wide application of Hybrid Engines opens the possibility for safer and more flexible space vehicle launching and manoeuvring. The present paper discusses fundamental combustion issues related to further development of Hybrid Rockets. The emphasis is made on the two aspects: (1) properties of potential polymeric fuels, and their modification, and (2) implementation of comprehensive CFD models for combustion in Hybrid Engines. Fundamentals of polymeric fuel combustion are discussed. Further, steps necessary to accurately describe their burning behaviour by means of CFD models are investigated. Final part of the paper presents results of preliminary CFD simulations of fuel burning process in Hybrid Engine using a simplified set-up.http://www.mdpi.com/1996-1073/4/10/1779/hybrid propulsionpolymeric fuelscombustioncomputational fluid dynamics
collection DOAJ
language English
format Article
sources DOAJ
author Vasily Novozhilov
Hui Wang
Jun Liu
Keiichi Ishiko
Toru Shimada
Paul Joseph
spellingShingle Vasily Novozhilov
Hui Wang
Jun Liu
Keiichi Ishiko
Toru Shimada
Paul Joseph
Polymer Combustion as a Basis for Hybrid Propulsion: A Comprehensive Review and New Numerical Approaches
Energies
hybrid propulsion
polymeric fuels
combustion
computational fluid dynamics
author_facet Vasily Novozhilov
Hui Wang
Jun Liu
Keiichi Ishiko
Toru Shimada
Paul Joseph
author_sort Vasily Novozhilov
title Polymer Combustion as a Basis for Hybrid Propulsion: A Comprehensive Review and New Numerical Approaches
title_short Polymer Combustion as a Basis for Hybrid Propulsion: A Comprehensive Review and New Numerical Approaches
title_full Polymer Combustion as a Basis for Hybrid Propulsion: A Comprehensive Review and New Numerical Approaches
title_fullStr Polymer Combustion as a Basis for Hybrid Propulsion: A Comprehensive Review and New Numerical Approaches
title_full_unstemmed Polymer Combustion as a Basis for Hybrid Propulsion: A Comprehensive Review and New Numerical Approaches
title_sort polymer combustion as a basis for hybrid propulsion: a comprehensive review and new numerical approaches
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2011-10-01
description Hybrid Propulsion is an attractive alternative to conventional liquid and solid rocket motors. This is an active area of research and technological developments. Potential wide application of Hybrid Engines opens the possibility for safer and more flexible space vehicle launching and manoeuvring. The present paper discusses fundamental combustion issues related to further development of Hybrid Rockets. The emphasis is made on the two aspects: (1) properties of potential polymeric fuels, and their modification, and (2) implementation of comprehensive CFD models for combustion in Hybrid Engines. Fundamentals of polymeric fuel combustion are discussed. Further, steps necessary to accurately describe their burning behaviour by means of CFD models are investigated. Final part of the paper presents results of preliminary CFD simulations of fuel burning process in Hybrid Engine using a simplified set-up.
topic hybrid propulsion
polymeric fuels
combustion
computational fluid dynamics
url http://www.mdpi.com/1996-1073/4/10/1779/
work_keys_str_mv AT vasilynovozhilov polymercombustionasabasisforhybridpropulsionacomprehensivereviewandnewnumericalapproaches
AT huiwang polymercombustionasabasisforhybridpropulsionacomprehensivereviewandnewnumericalapproaches
AT junliu polymercombustionasabasisforhybridpropulsionacomprehensivereviewandnewnumericalapproaches
AT keiichiishiko polymercombustionasabasisforhybridpropulsionacomprehensivereviewandnewnumericalapproaches
AT torushimada polymercombustionasabasisforhybridpropulsionacomprehensivereviewandnewnumericalapproaches
AT pauljoseph polymercombustionasabasisforhybridpropulsionacomprehensivereviewandnewnumericalapproaches
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